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==Links==
==Links==
* See also [[1657|1657 Digibridge]]


==Photos==
==Photos==

Latest revision as of 19:00, 12 June 2024

General Radio 1658
RLC Digibridge
General Radio 1658 RLC Digibridge

Available from 1978 to 1978+

Manuals
Catalog History
 Document Year Page
Catalog78 1978 24
(All manuals in PDF format unless noted otherwise)

The General Radio 1658 RLC Digibridge was available in Catalog 1978 only.

The Type 1658 Digibridge is a digital impedance meter and comparator utilizing microprocessor control. Basic accuracy is 0.1% using a five digit display for RLC, and four digits for D/Q. It features a built-in test fixture with the option for an extension cable. Measurements can be made at 120 Hz or 1 kHz, and series or parallel circuits are keyboard selectable. An optional IEEE 488 bus/handler interface is available. The 1658 is equipped with a comparator function for Go/No-Go testing and sorting of components into logical "Bins". Limits and sorting information is entered using the keyboard. Using this function, it is possible to sort parts by percentage or value.

The measurements are made by the quadrature sampling method, where the standard and the unknown are in series and a sine wave is applied. Four voltage measurements are taken across the standard and then the unknown at four different phases of the sine wave. Using their magnitude and phase difference, the processor calculates the results. It is interesting to note the 1658 uses three measurement rates. The slow rate takes five measurements, medium rate takes eight (Quadrature), and the high rate takes sixteen. Because the processor creates the test sine wave using a digital-to-analog converter, it has exact phase information for its measurements and calculations, eliminating the need for calibration.

Specifications

  • Measurement Ranges
  • Resistance: 0.0001 Ω to 9.9999 MΩ at 1 kHz, 0.0001 Ω to 99.999 MΩ at 120 Hz
  • Inductance: .00001 mH to 999.99 H at 1 kHz, 0.0001 mH to 9999.9 H at 120 Hz
  • Capacitance: .00001 nF to 999.99 μF at 1 kHz, 0.0001 nF to 99999 μF at 120 Hz
  • Dissipation Factor: .0001 to 9.999
  • Q Factor: 00.01 to 999.9 for L/Q, .0001 to 9.999 for R/Q
  • Basic Accuracy: 0.1%
  • Test Frequencies: 120 Hz and 1 kHz

Links

Photos